CN103253362A - Wave-driving propeller propelling device and underwater gliding machine - Google Patents
Wave-driving propeller propelling device and underwater gliding machine Download PDFInfo
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- CN103253362A CN103253362A CN2013102050458A CN201310205045A CN103253362A CN 103253362 A CN103253362 A CN 103253362A CN 2013102050458 A CN2013102050458 A CN 2013102050458A CN 201310205045 A CN201310205045 A CN 201310205045A CN 103253362 A CN103253362 A CN 103253362A
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Abstract
The invention discloses a wave-driving propeller propelling device. The wave-driving propeller propelling device comprises a main shaft and rotating shafts arranged on the two sides of the main shaft symmetrically, wherein the rotating shafts are perpendicular to the main shaft, hydrofoils are fixedly connected to the rotating shafts, and the rear end of the main shaft is connected with a propeller; the rotating shafts are connected with driving shafts through machine side ratchet assemblies, and the driving shafts are connected with the main shaft through bevel gear transmission mechanisms; the mounting directions of the machine side ratchet assemblies on the two sides of the main shaft are opposite. The invention further discloses an underwater gliding machine comprising the wave-driving propeller propelling device. Wave energy is fully utilized for driving the propelling device, driving efficiency is high, and the wave-driving propeller propelling device and the underwater gliding machine are controllable and stable in operation.
Description
Technical field
The present invention relates to a kind of propeller plant, particularly relate to a kind of machine that slides that utilizes the propeller plant of powered by wave energy and utilize this device to drive under water.
Background technology
The long sequential characteristics of the large scale of marine monitoring and abominable operating environment and expensive observation cost, force human development one cover not to be subjected to energy restriction operation on a large scale for a long time, and maintenance free low-cost autonomous operation platform, to extend the human feeler of understanding world ocean.Current, the wave energy glider of Chu Xianing is opened one's minds for ocean observation technology provides in the world.This platform utilizes the marine environment energy to realize the observation operation of long-time big voyage dexterously, and via satellite and carry out instruction and data exchange between the monitored base stations, become first-selected monitoring tool under the basic platform of ocean observation network struction and the extreme marine environment.
Above-mentioned wave energy glider mainly by surface floating body, slide machine under water and hanger rope is formed.The utilization of wave energy glider is slided machine under water the undulatory motion of wave is transformed into the forward momentum that slides machine under water, and drags surface floating body by hanger rope and advance.The machine that slides under water mainly is made up of main frame, hydrofoil, S. A., limit shaft and tail vane etc.The movement mechanism of wave energy glider: surface floating body is with the wave rippling, and surface floating body pulls by hanger rope and slides the machine rippling under water; When hydrofoil slides machine under water and rises (declines) motion since the effect meeting of water resistance swing towards the direction of reverse movement, the dead slot lower end (upper end) on the limit shaft that is connected with hydrofoil and main frame when contacting hydrofoil stop swinging; The machine that slides under water continues to rise (decline), and slide the hydrofoil of machine under water and put an attitude angle this moment, and current will make hydrofoil produce a forward momentum with the relative motion of sliding machine under water.
Motion process and the mechanism of action that the wave energy glider slides machine under water make the wave energy glider with the wave rippling time, hydrofoil swings in (lower end) process of dead slot upper end and does not almost utilize the undulatory motion of wave to be transformed into forward momentum, this the blind area of doing work can occur when just causing the wave energy glider to utilize wave to drive in the cycle of each acting, especially wave height is very little under 0 to 1 grade of sea situation, the machine that slides under water of wave energy glider will fall very lowly to the energy conversion efficiency of faint wave height wave, and the tractive performance of platform under this environment is very poor.Slide this constructional feature of machine and the utilization ratio that movement mechanism will reduce wave energy under water, also reduce the tractive performance index of wave energy glider platform under severe sea condition simultaneously.
Summary of the invention
The present invention provides a kind of machine that slides that can eliminate the propeller plant of powered by wave energy acting blind area and adopt this device propelling under water for solving the technical matters that exists in the known technology.
The technical scheme that the present invention takes for the technical matters that exists in the solution known technology is: a kind of wave drives propeller plant, comprise main shaft and the S. A. that is arranged symmetrically in its both sides, described S. A. is vertical with described main shaft, be connected with hydrofoil on the described S. A., the rear end of described main shaft is connected with screw propeller; Described S. A. is connected with axle drive shaft by the pusher side ratchet assembly, and described axle drive shaft also is connected by two bevel drive mechanisms with described main shaft is vertical;
Described pusher side ratchet assembly comprises hub, reed, pawl-and-gearing end cap in the outer hub of the ratchet that is provided with internal tooth, the ratchet, the outer hub of described ratchet and described ratchet end cap are affixed, vertically be connected with installation shaft on the end face of hub in the described ratchet, described ratchet is installed on the described installation shaft, described reed is pressed on the described ratchet, and with described ratchet in hub affixed, the internal tooth engagement of the outer hub of described ratchet and described ratchet;
In the left side of described main shaft, the described ratchet end cap of described pusher side ratchet assembly is connected with described S. A., and hub is connected with described axle drive shaft in the described ratchet of this pusher side ratchet assembly; On the right side of described main shaft, the described ratchet end cap of described pusher side ratchet assembly is connected with described axle drive shaft, and hub is connected with described S. A. in the described ratchet of this pusher side ratchet assembly.
Described front end of spindle is connected with motor by the prow ratchet assembly, described prow ratchet assembly is identical with described pusher side ratchet assembly structure, the ratchet end cap of described prow ratchet assembly and the output shaft of described motor are affixed, and hub is connected with described front end of spindle in the ratchet of this prow ratchet assembly.
Described screw propeller and screw propeller output shaft are affixed, described screw propeller output shaft is connected with the rear end of described main shaft by transmission shaft, the rear end of described main shaft is connected by the tail ratchet assembly with described transmission shaft, described tail ratchet assembly is identical with described pusher side ratchet assembly structure, the ratchet end cap of described tail ratchet assembly is connected with the rear end of described main shaft, hub is connected with the front end of described transmission shaft in the ratchet of this tail ratchet assembly, and the rear end of described transmission shaft is connected by clockwork spring with described screw propeller output shaft.
Described bevel drive mechanism comprises the driving helical bevel gear of driven helical bevel gear and Vertical Meshing mutual with it, and described driven helical bevel gear is connected on the described main shaft, and described driving helical bevel gear is connected on the described axle drive shaft.
Another technical scheme that the present invention takes for the technical matters that exists in the solution known technology is: a kind of machine that slides under water, comprise that above-mentioned wave drives propeller plant and body skin, described wave drives propeller plant and is installed in the described body skin, described hydrofoil and described screw propeller are positioned at outside the described body skin, described hydrofoil is captiveed joint with limit shaft, described body skin is provided with the deep-slotted chip breaker adaptive with described limit shaft, and described limit shaft is transverse in the described deep-slotted chip breaker; Described body skin is provided with tail vane.
Advantage and good effect that the present invention has are:
1) hydrofoil in main shaft left side adopts reverse fitting machine gemmule wheel assembly, the ratchet end cap is connected with S. A., and hub is connected with axle drive shaft in the ratchet, and the hydrofoil on main shaft right side adopts forward fitting machine gemmule wheel assembly, the ratchet end cap is connected with axle drive shaft, and hub is connected with S. A. in the ratchet.The sense of motion of main shaft both sides hydrofoil is identical, on hydrofoil in the pendulum process, the hydrofoil in main shaft left side is by the axle drive shaft left-hand revolution of the pusher side ratchet assembly drive homonymy of oppositely installation, and axle drive shaft drives the main shaft clickwise by bevel drive mechanism, and the hydrofoil in main shaft left side does work; Simultaneously on the hydrofoil of right side in the pendulum process, drive homonymy S. A. clickwise, drive the pusher side ratchet assembly that forward is installed, and the pusher side ratchet assembly that forward is installed can only transmit the conter clockwise moment of torsion, therefore this sidespin rotating shaft can not drive the rotation of homonymy axle drive shaft, and the hydrofoil on main shaft right side does not do work.In hydrofoil bottom process, it is just in time opposite that type of belt drive is caught up with the pendulum process, and the hydrofoil in main shaft left side does not do work, the hydrofoil acting on main shaft right side.Therefore in the whole process of hydrofoil swing, main shaft both sides hydrofoil is acting alternately, drives the screw propeller clickwise, eliminates the acting blind area of powered by wave energy, improves the degree of utilization that slides the machine wave energy under water, improves the tractive performance of platform.
2) install motor additional at main shaft, adopt wave and electric power to mix the mode of driving and drive propelling unit, make propelling unit have controllability.
3) when the sense of motion of hydrofoil is undergone mutation; the motion of main shaft state can suddenly change; the present invention adopts the structure that installs clockwork spring between transmission shaft and screw propeller output shaft additional; utilize clockwork spring as buffering; members such as protection screw propeller; also can stablize simultaneously the output speed of screw propeller, improve the propulsion coefficient of screw propeller, and then improve the driving efficient of propelling unit.
4) adopt the helical teeth transmission, stable drive, noise is little, and load-carrying capacity is strong.
In sum, the present invention has utilized wave energy to drive propelling unit comparatively fully, drives the efficient height, has controllability, and is stable.
Description of drawings
Fig. 1 drives the structural representation of propeller plant for wave of the present invention;
Fig. 2 drives the scheme drawing that the propeller plant hydrofoil is connected with main shaft for wave of the present invention;
Fig. 3 drives the scheme drawing of propeller plant pusher side ratchet assembly for wave of the present invention;
Fig. 4 drives the scheme drawing that the propeller plant screw propeller is connected with main shaft for wave of the present invention;
Fig. 5 slides the scheme drawing of machine under water for the present invention.
Among the figure: 1, main shaft, 2, the prow ratchet assembly, 3, motor, 4, hydrofoil, 5, S. A., 6, screw propeller, 7, axle drive shaft, 8, drive helical bevel gear, 9, driven helical bevel gear, 10, the pusher side ratchet assembly, 11, the ratchet end cap, 12, ratchet, 13, reed, 14, hub in the ratchet, 15, the outer hub of ratchet, 16, the tail ratchet assembly, 17, transmission shaft, 18, clockwork spring, 19, the screw propeller output shaft, 20, limit shaft, 21, body skin, 22, tail vane.
The specific embodiment
For further understanding summary of the invention of the present invention, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:
See also Fig. 1~Fig. 4, a kind of wave drives propeller plant, comprises main shaft 1 and is arranged symmetrically in the S. A. 5 of its both sides, and described S. A. 5 is vertical with described main shaft 1, be connected with hydrofoil 4 on the described S. A. 5, the rear end of described main shaft 1 is connected with screw propeller 6; Described S. A. 5 is connected with axle drive shaft 7 by pusher side ratchet assembly 10, and described axle drive shaft 7 and described main shaft 1 are vertical also to be connected by two bevel drive mechanisms; Described pusher side ratchet assembly 2 comprises hub 14, reed 13, ratchet 12 and ratchet end cap 11 in the outer hub 15 of the ratchet that is provided with internal tooth, the ratchet, the outer hub 15 of described ratchet and described ratchet end cap 11 are affixed, vertically be connected with installation shaft on the end face of hub 14 in the described ratchet, described ratchet 12 is installed on the described installation shaft, described reed 13 is pressed on the described ratchet 12, for ratchet provides restoring moment, described reed 13 is affixed with the interior hub 14 of described ratchet, and described ratchet 12 meshes with the internal tooth of the outer hub 15 of described ratchet; In a side of described main shaft 1, in the present embodiment, this side is the left side, and the described ratchet end cap 11 of described pusher side ratchet assembly 10 is connected with described S. A. 5, and hub 14 is connected with described axle drive shaft 7 in the described ratchet of this pusher side ratchet assembly 10; At the opposite side of described main shaft 1, in the present embodiment, this side is the right side, and the ratchet end cap of pusher side ratchet assembly is connected with axle drive shaft, and hub is connected with S. A. in the ratchet of this pusher side ratchet assembly.Described direction all is as the criterion with shown in Figure 1 herein.
In the present embodiment, in order to make propelling unit have controllability, described main shaft 1 front end is connected with motor 3 by prow ratchet assembly 2, described prow ratchet assembly 2 is identical with described pusher side ratchet assembly 10 structures, the ratchet end cap of described prow ratchet assembly 2 and the output shaft of described motor 3 are affixed, and hub is connected with described main shaft 1 front end in the ratchet of this prow ratchet assembly 10.
In the present embodiment, for propelling unit is operated steadily, described screw propeller 6 is affixed with screw propeller output shaft 19, described screw propeller output shaft 19 is connected with the rear end of described main shaft 1 by transmission shaft 17, the rear end of described main shaft 1 is connected by tail ratchet assembly 16 with described transmission shaft 17, described tail ratchet assembly 16 is identical with described pusher side ratchet assembly 10 structures, the ratchet end cap of described tail ratchet assembly 16 is connected with the rear end of described main shaft 1, hub is connected with the front end of described transmission shaft 17 in the ratchet of this tail ratchet assembly 16, and the rear end of described transmission shaft 17 is connected by clockwork spring 18 with described screw propeller output shaft 19.
In the present embodiment, in order to make the propelling unit stable drive, described bevel drive mechanism comprises the driving helical bevel gear 8 of driven helical bevel gear 9 and Vertical Meshing mutual with it, described driven helical bevel gear 9 is connected on the described main shaft 1, and described driving helical bevel gear 8 is connected on the described axle drive shaft 1.
See also Fig. 5, shown in Fig. 5 is to comprise that above-mentioned wave drives the machine that slides of propeller plant under water, and wave drives propeller plant and is installed in the described body skin 21, supports by bearing shell and bearing shell supporting seat.Described hydrofoil 4 and described screw propeller 6 are positioned at outside the described body skin 21, and described hydrofoil 4 is captiveed joint with limit shaft 20, and described body skin 21 is provided with the deep-slotted chip breaker adaptive with described limit shaft 20, and described limit shaft 20 is transverse in the described deep-slotted chip breaker; Described body skin 21 is provided with tail vane 22.
The machine that slides under water adopts electric energy and wave energy combination drive pattern, the electric energy that motor utilizes surface floating body to provide drives screw propeller and rotates, and hydrofoil utilizes wave energy that the propulsive effort that moves ahead is provided, and can fully catch wave energy, do not have the acting blind area, and can fully catch the wave energy under the faint wave height.The electric energy type of drive can increase anti-current ability and the maneuvering performance that slides machine under water, during the rotating speed of the driving helical bevel gear that drives greater than hydrofoil when rotating speed of motor, the rotating speed of main shaft is identical with motor, the rotating speed of the driving helical bevel gear that drives when hydrofoil is during greater than rotating speed of motor, and the rotating speed of main shaft is identical with the helical gear rotating speed of driving.The combination drive mode has improved the tractive performance that slides machine platform under water.
Sliding the state of kinematic motion of machine hydrofoil in the rippling process under water can undergo mutation; thereby make the spindle speed sudden change; utilize clockwork spring as buffer structure; can slide under water in the machine rippling process, during the spindle speed sudden change, play buffer action; in members such as protection screw propeller; also can stablize the output speed of screw propeller, improve the work efficiency of screw propeller, and then improve the driving efficient that slides machine under water.
Although by reference to the accompanying drawings the preferred embodiments of the present invention are described above; but the present invention is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment only is schematic; be not restrictive; those of ordinary skill in the art is under enlightenment of the present invention; not breaking away under the scope situation that aim of the present invention and claim protect, can also make a lot of forms, these all belong within protection scope of the present invention.
Claims (5)
1. a wave drives propeller plant, it is characterized in that, comprises main shaft and the S. A. that is arranged symmetrically in its both sides, and described S. A. is vertical with described main shaft, is connected with hydrofoil on the described S. A., and the rear end of described main shaft is connected with screw propeller; Described S. A. is connected with axle drive shaft by the pusher side ratchet assembly, and described axle drive shaft also is connected by two bevel drive mechanisms with described main shaft is vertical;
Described pusher side ratchet assembly comprises hub, reed, pawl-and-gearing end cap in the outer hub of the ratchet that is provided with internal tooth, the ratchet, the outer hub of described ratchet and described ratchet end cap are affixed, vertically be connected with installation shaft on the end face of hub in the described ratchet, described ratchet is installed on the described installation shaft, described reed is pressed on the described ratchet, and with described ratchet in hub affixed, the internal tooth engagement of the outer hub of described ratchet and described ratchet;
In the left side of described main shaft, the described ratchet end cap of described pusher side ratchet assembly is connected with described S. A., and hub is connected with described axle drive shaft in the described ratchet of this pusher side ratchet assembly; On the right side of described main shaft, the described ratchet end cap of described pusher side ratchet assembly is connected with described axle drive shaft, and hub is connected with described S. A. in the described ratchet of this pusher side ratchet assembly.
2. wave according to claim 1 drives propeller plant, it is characterized in that, described front end of spindle is connected with motor by the prow ratchet assembly, described prow ratchet assembly is identical with described pusher side ratchet assembly structure, the ratchet end cap of described prow ratchet assembly and the output shaft of described motor are affixed, and hub is connected with described front end of spindle in the ratchet of this prow ratchet assembly.
3. wave according to claim 1 and 2 drives propeller plant, it is characterized in that, described screw propeller and screw propeller output shaft are affixed, described screw propeller output shaft is connected with the rear end of described main shaft by transmission shaft, the rear end of described main shaft is connected by the tail ratchet assembly with described transmission shaft, described tail ratchet assembly is identical with described pusher side ratchet assembly structure, the ratchet end cap of described tail ratchet assembly is connected with the rear end of described main shaft, hub is connected with the front end of described transmission shaft in the ratchet of this tail ratchet assembly, and the rear end of described transmission shaft is connected by clockwork spring with described screw propeller output shaft.
4. wave according to claim 1 drives propeller plant, it is characterized in that, described bevel drive mechanism comprises the driving helical bevel gear of driven helical bevel gear and Vertical Meshing mutual with it, described driven helical bevel gear is connected on the described main shaft, and described driving helical bevel gear is connected on the described axle drive shaft.
5. one kind is slided machine under water, it is characterized in that, comprise as any described wave of claim 1~4 and drive propeller plant and body skin, described wave drives propeller plant and is installed in the described body skin, described hydrofoil and described screw propeller are positioned at outside the described body skin, described hydrofoil is captiveed joint with limit shaft, and described body skin is provided with the deep-slotted chip breaker adaptive with described limit shaft, and described limit shaft is transverse in the described deep-slotted chip breaker; Described body skin is provided with tail vane.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105280061A (en) * | 2015-11-02 | 2016-01-27 | 西北工业大学 | Underwater multi-wing linkage experimental device |
CN107826229A (en) * | 2017-11-26 | 2018-03-23 | 华南理工大学 | A kind of differential hydrofoil wave propeller |
CN109387352A (en) * | 2018-11-12 | 2019-02-26 | 江苏科技大学 | A kind of experiment porch for wave driving unmanned water surface robot |
CN110395376A (en) * | 2019-08-27 | 2019-11-01 | 国家海洋技术中心 | Combination drive wave aerodone |
CN110500228A (en) * | 2019-08-14 | 2019-11-26 | 上海交通大学 | It is a kind of for acquiring fixed double Oscillatory Coupling hydrofoil power generator of marine tidal-current energy |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN105280061A (en) * | 2015-11-02 | 2016-01-27 | 西北工业大学 | Underwater multi-wing linkage experimental device |
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CN110500228A (en) * | 2019-08-14 | 2019-11-26 | 上海交通大学 | It is a kind of for acquiring fixed double Oscillatory Coupling hydrofoil power generator of marine tidal-current energy |
CN110395376A (en) * | 2019-08-27 | 2019-11-01 | 国家海洋技术中心 | Combination drive wave aerodone |
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